#include <c10/test/util/Macros.h>
#include <c10/util/Metaprogramming.h>
#include <gtest/gtest.h>
#include <cstdlib>

using namespace c10::guts;

namespace {

namespace test_function_traits {
static_assert(
    std::is_same<
        void,
        typename function_traits<void(int, float)>::return_type>::value,
    "");
static_assert(
    std::is_same<int, typename function_traits<int(int, float)>::return_type>::
        value,
    "");
static_assert(
    std::is_same<
        typelist::typelist<int, float>,
        typename function_traits<void(int, float)>::parameter_types>::value,
    "");
static_assert(
    std::is_same<
        typelist::typelist<int, float>,
        typename function_traits<int(int, float)>::parameter_types>::value,
    "");

static_assert(
    std::is_same<
        bool,
        typename make_function_traits_t<bool, typelist::typelist<int, float>>::
            return_type>::value,
    "");
static_assert(
    std::is_same<
        void,
        typename make_function_traits_t<void, typelist::typelist<int, float>>::
            return_type>::value,
    "");
static_assert(
    std::is_same<
        typelist::typelist<int, float>,
        typename make_function_traits_t<bool, typelist::typelist<int, float>>::
            parameter_types>::value,
    "");
static_assert(
    std::is_same<
        typelist::typelist<int, float>,
        typename make_function_traits_t<void, typelist::typelist<int, float>>::
            parameter_types>::value,
    "");
static_assert(
    std::is_same<
        bool(int, float),
        typename make_function_traits_t<bool, typelist::typelist<int, float>>::
            func_type>::value,
    "");
static_assert(
    std::is_same<
        void(int, float),
        typename make_function_traits_t<void, typelist::typelist<int, float>>::
            func_type>::value,
    "");
} // namespace test_function_traits

struct MovableOnly {
  constexpr MovableOnly(int val_) : val(val_) { /* no default constructor */
  }
  MovableOnly(const MovableOnly&) = delete;
  MovableOnly(MovableOnly&&) = default;
  MovableOnly& operator=(const MovableOnly&) = delete;
  MovableOnly& operator=(MovableOnly&&) = default;

  friend bool operator==(const MovableOnly& lhs, const MovableOnly& rhs) {
    return lhs.val == rhs.val;
  }

 private:
  int val;
};

template <class T>
using is_my_movable_only_class =
    std::is_same<MovableOnly, std::remove_cv_t<std::remove_reference_t<T>>>;

struct CopyCounting {
  int move_count;
  int copy_count;

  CopyCounting() : move_count(0), copy_count(0) {}
  CopyCounting(const CopyCounting& rhs)
      : move_count(rhs.move_count), copy_count(rhs.copy_count + 1) {}
  CopyCounting(CopyCounting&& rhs)
      : move_count(rhs.move_count + 1), copy_count(rhs.copy_count) {}
  CopyCounting& operator=(const CopyCounting& rhs) {
    move_count = rhs.move_count;
    copy_count = rhs.copy_count + 1;
    return *this;
  }
  CopyCounting& operator=(CopyCounting&& rhs) {
    move_count = rhs.move_count + 1;
    copy_count = rhs.copy_count;
    return *this;
  }
};

template <class T>
using is_my_copy_counting_class =
    std::is_same<CopyCounting, std::remove_cv_t<std::remove_reference_t<T>>>;

namespace test_extract_arg_by_filtered_index {
class MyClass {};

TEST(MetaprogrammingTest, ExtractArgByFilteredIndex) {
  auto a1 = extract_arg_by_filtered_index<std::is_integral, 0>(
      3, "bla", MyClass(), 4, nullptr, 5);
  auto a2 = extract_arg_by_filtered_index<std::is_integral, 1>(
      3, "bla", MyClass(), 4, nullptr, 5);
  auto a3 = extract_arg_by_filtered_index<std::is_integral, 2>(
      3, "bla", MyClass(), 4, nullptr, 5);
  EXPECT_EQ(3, a1);
  EXPECT_EQ(4, a2);
  EXPECT_EQ(5, a3);
}

TEST(MetaprogrammingTest, ExtractArgByFilteredIndex_singleInput) {
  auto a1 = extract_arg_by_filtered_index<std::is_integral, 0>(3);
  EXPECT_EQ(3, a1);
}

TEST(MetaprogrammingTest, ExtractArgByFilteredIndex_movableOnly) {
  MovableOnly a1 = extract_arg_by_filtered_index<is_my_movable_only_class, 0>(
      3, MovableOnly(3), "test", MovableOnly(1));
  MovableOnly a2 = extract_arg_by_filtered_index<is_my_movable_only_class, 1>(
      3, MovableOnly(3), "test", MovableOnly(1));
  EXPECT_EQ(MovableOnly(3), a1);
  EXPECT_EQ(MovableOnly(1), a2);
}

TEST(MetaprogrammingTest, ExtractArgByFilteredIndex_onlyCopiesIfNecessary) {
  CopyCounting source;
  CopyCounting source2;
  CopyCounting a1 = extract_arg_by_filtered_index<is_my_copy_counting_class, 0>(
      3, CopyCounting(), "test", source, std::move(source2));
  // NOLINTNEXTLINE(bugprone-use-after-move)
  CopyCounting a2 = extract_arg_by_filtered_index<is_my_copy_counting_class, 1>(
      3, CopyCounting(), "test", source, std::move(source2));
  // NOLINTNEXTLINE(bugprone-use-after-move)
  CopyCounting a3 = extract_arg_by_filtered_index<is_my_copy_counting_class, 2>(
      3, CopyCounting(), "test", source, std::move(source2));
  EXPECT_EQ(1, a1.move_count);
  EXPECT_EQ(0, a1.copy_count);
  EXPECT_EQ(0, a2.move_count);
  EXPECT_EQ(1, a3.move_count);
  EXPECT_EQ(0, a3.copy_count);
  EXPECT_EQ(1, a2.copy_count);
}

TEST(MetaprogrammingTest, ExtractArgByFilteredIndex_onlyMovesIfNecessary) {
  CopyCounting source;
  CopyCounting source2;
  CopyCounting&& a1 =
      extract_arg_by_filtered_index<is_my_copy_counting_class, 0>(
          3, std::move(source), "test", std::move(source2));
  // NOLINTNEXTLINE(bugprone-use-after-move)
  CopyCounting a2 = extract_arg_by_filtered_index<is_my_copy_counting_class, 1>(
      3, std::move(source), "test", std::move(source2));
  EXPECT_EQ(0, a1.move_count);
  EXPECT_EQ(0, a1.copy_count);
  EXPECT_EQ(1, a2.move_count);
  EXPECT_EQ(0, a2.copy_count);
}

template <class T>
using is_true = std::true_type;

TEST(
    MetaprogrammingTest,
    ExtractArgByFilteredIndex_keepsLValueReferencesIntact) {
  MyClass obj;
  MyClass& a1 = extract_arg_by_filtered_index<is_true, 1>(3, obj, "test", obj);
  EXPECT_EQ(&obj, &a1);
}
} // namespace test_extract_arg_by_filtered_index

namespace test_filter_map {
class MyClass {};

struct map_to_double {
  template <class T>
  constexpr double operator()(T a) const {
    return static_cast<double>(a);
  }
};

TEST(MetaprogrammingTest, FilterMap) {
  auto result = filter_map<double, std::is_integral>(
      map_to_double(), 3, "bla", MyClass(), 4, nullptr, 5);
  static_assert(std::is_same<array<double, 3>, decltype(result)>::value, "");
  constexpr array<double, 3> expected{{3.0, 4.0, 5.0}};
  EXPECT_EQ(expected, result);
}

TEST(MetaprogrammingTest, FilterMap_emptyInput) {
  auto result = filter_map<double, std::is_integral>(map_to_double());
  static_assert(std::is_same<array<double, 0>, decltype(result)>::value, "");
  constexpr array<double, 0> expected{{}};
  EXPECT_EQ(expected, result);
}

TEST(MetaprogrammingTest, FilterMap_emptyOutput) {
  auto result = filter_map<double, std::is_integral>(
      map_to_double(), "bla", MyClass(), nullptr);
  static_assert(std::is_same<array<double, 0>, decltype(result)>::value, "");
  constexpr array<double, 0> expected{{}};
  EXPECT_EQ(expected, result);
}

TEST(MetaprogrammingTest, FilterMap_movableOnly_byRValue) {
  struct map_movable_by_rvalue {
    MovableOnly operator()(MovableOnly&& a) const {
      return std::move(a);
    }
  };

  auto result = filter_map<MovableOnly, is_my_movable_only_class>(
      map_movable_by_rvalue(),
      MovableOnly(5),
      "bla",
      nullptr,
      3,
      MovableOnly(2));
  static_assert(
      std::is_same<array<MovableOnly, 2>, decltype(result)>::value, "");
  constexpr array<MovableOnly, 2> expected{{MovableOnly(5), MovableOnly(2)}};
  EXPECT_EQ(expected, result);
}

TEST(MetaprogrammingTest, FilterMap_movableOnly_byValue) {
  struct map_movable_by_lvalue {
    MovableOnly operator()(MovableOnly a) const {
      return a;
    }
  };

  auto result = filter_map<MovableOnly, is_my_movable_only_class>(
      map_movable_by_lvalue(),
      MovableOnly(5),
      "bla",
      nullptr,
      3,
      MovableOnly(2));
  static_assert(
      std::is_same<array<MovableOnly, 2>, decltype(result)>::value, "");
  constexpr array<MovableOnly, 2> expected{{MovableOnly(5), MovableOnly(2)}};
  EXPECT_EQ(expected, result);
}

// See https://github.com/pytorch/pytorch/issues/35546
TEST(
    MetaprogrammingTest,
    DISABLED_ON_WINDOWS(FilterMap_onlyCopiesIfNecessary)) {
  struct map_copy_counting_by_copy {
    CopyCounting operator()(CopyCounting v) const {
      return v;
    }
  };

  CopyCounting source;
  CopyCounting source2;
  auto result = filter_map<CopyCounting, is_my_copy_counting_class>(
      map_copy_counting_by_copy(),
      CopyCounting(),
      "bla",
      nullptr,
      3,
      source,
      std::move(source2));
  static_assert(
      std::is_same<array<CopyCounting, 3>, decltype(result)>::value, "");
  EXPECT_EQ(0, result[0].copy_count);
  EXPECT_EQ(2, result[0].move_count);
  EXPECT_EQ(1, result[1].copy_count);
  EXPECT_EQ(1, result[1].move_count);
  EXPECT_EQ(0, result[2].copy_count);
  EXPECT_EQ(2, result[2].move_count);
}

TEST(
    MetaprogrammingTest,
    DISABLED_ON_WINDOWS(FilterMap_onlyMovesIfNecessary_1)) {
  struct map_copy_counting_by_move {
    CopyCounting operator()(CopyCounting&& v) const {
      return std::move(v);
    }
  };

  CopyCounting source;
  auto result = filter_map<CopyCounting, is_my_copy_counting_class>(
      map_copy_counting_by_move(),
      CopyCounting(),
      "bla",
      nullptr,
      3,
      std::move(source));
  static_assert(
      std::is_same<array<CopyCounting, 2>, decltype(result)>::value, "");
  EXPECT_EQ(0, result[0].copy_count);
  EXPECT_EQ(1, result[0].move_count);
  EXPECT_EQ(0, result[1].copy_count);
  EXPECT_EQ(1, result[1].move_count);
}

TEST(MetaprogrammingTest, FilterMap_onlyMovesIfNecessary_2) {
  struct map_copy_counting_by_pointer {
    const CopyCounting* operator()(const CopyCounting& v) const {
      return &v;
    }
  };

  CopyCounting source1;
  CopyCounting source2;
  auto result = filter_map<const CopyCounting*, is_my_copy_counting_class>(
      map_copy_counting_by_pointer(),
      "bla",
      nullptr,
      3,
      source1,
      std::move(source2));
  static_assert(
      std::is_same<array<const CopyCounting*, 2>, decltype(result)>::value, "");
  EXPECT_EQ(0, result[0]->copy_count);
  EXPECT_EQ(0, result[0]->move_count);
  EXPECT_EQ(0, result[1]->copy_count);
  EXPECT_EQ(0, result[1]->move_count);
}
} // namespace test_filter_map

namespace test_tuple_elements {
// note: not testing empty selection, as some compilers will raise
// "parameter set but not used" in tuple_elements(). a good example
// of the friction that comes with using these tools

TEST(MetaprogrammingTest, TupleElements_subsetSelection) {
  auto x = std::make_tuple(0, "HEY", 2.0);
  auto y = tuple_elements(x, std::index_sequence<0, 2>());
  auto z = std::make_tuple(0, 2.0);
  EXPECT_EQ(y, z);
}

TEST(MetaprogrammingTest, TupleElements_reorderSelection) {
  auto x = std::make_tuple(0, "HEY", 2.0);
  auto y = tuple_elements(x, std::index_sequence<0, 2, 1>());
  auto z = std::make_tuple(0, 2.0, "HEY");
  EXPECT_EQ(y, z);
}
} // namespace test_tuple_elements

namespace test_tuple_take {
// note: not testing empty prefix, see note on empty selection above.

TEST(MetaprogrammingTest, TupleTake_nonemptyPrefix) {
  auto x = std::make_tuple(0, "HEY", 2.0);
  auto y = tuple_take<decltype(x), 2>(x);
  auto z = std::make_tuple(0, "HEY");
  EXPECT_EQ(y, z);
}

TEST(MetaprogrammingTest, TupleTake_fullPrefix) {
  auto x = std::make_tuple(0, "HEY", 2.0);
  auto y = tuple_take<decltype(x), 3>(x);
  EXPECT_EQ(x, y);
}

TEST(MetaprogrammingTest, TupleTake_negative) {
  auto x = std::make_tuple(0, "HEY", 2.0);
  auto y = tuple_take<decltype(x), -2>(x);
  auto z = std::make_tuple("HEY", 2.0);
  EXPECT_EQ(y, z);
}
} // namespace test_tuple_take

namespace test_tuple_slice {
TEST(MetaprogrammingTest, TupleSlice_middle) {
  auto x = std::make_tuple(0, "HEY", 2.0, false);
  auto y = tuple_slice<decltype(x), 1, 2>(x);
  auto z = std::make_tuple("HEY", 2.0);
  EXPECT_EQ(y, z);
}

TEST(MetaprogrammingTest, TupleSlice_full) {
  auto x = std::make_tuple(0, "HEY", 2.0);
  auto y = tuple_slice<decltype(x), 0, 3>(x);
  EXPECT_EQ(x, y);
}
} // namespace test_tuple_slice

namespace test_tuple_map {
TEST(MetaprogrammingTest, TupleMap_simple) {
  auto result = tuple_map(
      std::tuple<int32_t, int32_t, int32_t>(3, 4, 5),
      [](int32_t a) -> int16_t { return a + 1; });
  static_assert(
      std::is_same<std::tuple<int16_t, int16_t, int16_t>, decltype(result)>::
          value,
      "");
  EXPECT_EQ(4, std::get<0>(result));
  EXPECT_EQ(5, std::get<1>(result));
  EXPECT_EQ(6, std::get<2>(result));
}

TEST(MetaprogrammingTest, TupleMap_mapperTakesDifferentButConvertibleType) {
  auto result = tuple_map(
      std::tuple<int32_t, int32_t, int32_t>(3, 4, 5),
      [](int64_t a) -> int16_t { return a + 1; });
  static_assert(
      std::is_same<std::tuple<int16_t, int16_t, int16_t>, decltype(result)>::
          value,
      "");
  EXPECT_EQ(4, std::get<0>(result));
  EXPECT_EQ(5, std::get<1>(result));
  EXPECT_EQ(6, std::get<2>(result));
}

TEST(MetaprogrammingTest, TupleMap_mapperTakesConstRef) {
  auto result = tuple_map(
      std::tuple<int32_t, int32_t, int32_t>(3, 4, 5),
      [](const int32_t& a) -> int16_t { return a + 1; });
  static_assert(
      std::is_same<std::tuple<int16_t, int16_t, int16_t>, decltype(result)>::
          value,
      "");
  EXPECT_EQ(4, std::get<0>(result));
  EXPECT_EQ(5, std::get<1>(result));
  EXPECT_EQ(6, std::get<2>(result));
}

TEST(MetaprogrammingTest, TupleMap_mapsToDifferentTypes) {
  struct Mapper {
    std::string operator()(int32_t a) const {
      return std::to_string(a);
    }
    int32_t operator()(const std::string& a) const {
      return atoi(a.c_str());
    }
  };
  auto result = tuple_map(std::tuple<int32_t, std::string>(3, "4"), Mapper());
  static_assert(
      std::is_same<std::tuple<std::string, int32_t>, decltype(result)>::value,
      "");
  EXPECT_EQ("3", std::get<0>(result));
  EXPECT_EQ(4, std::get<1>(result));
}

TEST(MetaprogrammingTest, TupleMap_differentiatesLRValueReferences) {
  struct Mapper {
    std::string operator()(std::string&& a) const {
      return "moved";
    }
    std::string operator()(const std::string& a) const {
      return "copied";
    }
  };
  std::string str1, str2;
  auto result = tuple_map(
      std::tuple<const std::string&, std::string&&>(str1, std::move(str2)),
      Mapper());
  static_assert(
      std::is_same<std::tuple<std::string, std::string>, decltype(result)>::
          value,
      "");
  EXPECT_EQ("copied", std::get<0>(result));
  EXPECT_EQ("moved", std::get<1>(result));
}

TEST(MetaprogrammingTest, TupleMap_canWorkWithMovableOnlyType) {
  auto result = tuple_map(
      std::tuple<MovableOnly>(MovableOnly(7)), [](MovableOnly a) { return a; });
  static_assert(
      std::is_same<std::tuple<MovableOnly>, decltype(result)>::value, "");
  EXPECT_EQ(MovableOnly(7), std::get<0>(result));
}

TEST(MetaprogrammingTest, TupleMap_doesntUnecessarilyCopyValues) {
  auto result = tuple_map(
      std::tuple<CopyCounting>(CopyCounting()),
      [](CopyCounting a) { return a; });
  static_assert(
      std::is_same<std::tuple<CopyCounting>, decltype(result)>::value, "");
  EXPECT_EQ(4, std::get<0>(result).move_count);
  EXPECT_EQ(0, std::get<0>(result).copy_count);
}

TEST(MetaprogrammingTest, TupleMap_doesntUnecessarilyMoveValues) {
  CopyCounting a;
  auto result = tuple_map(
      std::tuple<CopyCounting&&>(std::move(a)),
      [](CopyCounting&& a) -> CopyCounting&& { return std::move(a); });
  static_assert(
      std::is_same<std::tuple<CopyCounting&&>, decltype(result)>::value, "");
  EXPECT_EQ(&a, &std::get<0>(result));
  EXPECT_EQ(0, std::get<0>(result).move_count);
  EXPECT_EQ(0, std::get<0>(result).copy_count);
}

TEST(MetaprogrammingTest, TupleMap_canBeUsedWithAutoLambdas) {
  struct A final {
    int32_t func() {
      return 5;
    }
  };
  struct B final {
    std::string func() {
      return "5";
    }
  };
  auto result =
      tuple_map(std::make_tuple(A(), B()), [](auto a) { return a.func(); });
  static_assert(
      std::is_same<std::tuple<int32_t, std::string>, decltype(result)>::value,
      "");
  EXPECT_EQ(5, std::get<0>(result));
  EXPECT_EQ("5", std::get<1>(result));
}
} // namespace test_tuple_map

namespace test_tuple_concat {
TEST(MetaprogrammingTest, TupleConcat_zerotuples) {
  auto result = tuple_concat();
  static_assert(std::is_same<std::tuple<>, decltype(result)>::value, "");
}

TEST(MetaprogrammingTest, TupleConcat_oneemptytuple) {
  auto result = tuple_concat(std::tuple<>());
  static_assert(std::is_same<std::tuple<>, decltype(result)>::value, "");
}

TEST(MetaprogrammingTest, TupleConcat_onenonemptytuple) {
  auto result = tuple_concat(std::tuple<int64_t>(3));
  static_assert(std::is_same<std::tuple<int64_t>, decltype(result)>::value, "");
  EXPECT_EQ(3, std::get<0>(result));
}

TEST(MetaprogrammingTest, TupleConcat_twotuples) {
  auto result = tuple_concat(
      std::tuple<int64_t, std::string>(3, "4"),
      std::tuple<double, int16_t>(2.3, 15));
  static_assert(
      std::is_same<
          std::tuple<int64_t, std::string, double, int16_t>,
          decltype(result)>::value,
      "");
  EXPECT_EQ(3, std::get<0>(result));
  EXPECT_EQ("4", std::get<1>(result));
  EXPECT_EQ(2.3, std::get<2>(result));
  EXPECT_EQ(15, std::get<3>(result));
}

TEST(MetaprogrammingTest, TupleConcat_threetuples) {
  auto result = tuple_concat(
      std::tuple<int64_t, std::string>(3, "4"),
      std::tuple<double, int16_t>(2.3, 15),
      std::tuple<std::string, float>("5", 3.2));
  static_assert(
      std::is_same<
          std::tuple<int64_t, std::string, double, int16_t, std::string, float>,
          decltype(result)>::value,
      "");
  EXPECT_EQ(3, std::get<0>(result));
  EXPECT_EQ("4", std::get<1>(result));
  EXPECT_EQ(2.3, std::get<2>(result));
  EXPECT_EQ(15, std::get<3>(result));
  EXPECT_EQ("5", std::get<4>(result));
  EXPECT_EQ(static_cast<float>(3.2), std::get<5>(result));
}

TEST(MetaprogrammingTest, TupleConcat_emptytupleatbeginning) {
  auto result = tuple_concat(
      std::tuple<>(),
      std::tuple<double, int16_t>(2.3, 15),
      std::tuple<std::string, float>("5", 3.2));
  static_assert(
      std::is_same<
          std::tuple<double, int16_t, std::string, float>,
          decltype(result)>::value,
      "");
  EXPECT_EQ(2.3, std::get<0>(result));
  EXPECT_EQ(15, std::get<1>(result));
  EXPECT_EQ("5", std::get<2>(result));
  EXPECT_EQ(static_cast<float>(3.2), std::get<3>(result));
}

TEST(MetaprogrammingTest, TupleConcat_emptytupleinmiddle) {
  auto result = tuple_concat(
      std::tuple<double, int16_t>(2.3, 15),
      std::tuple<>(),
      std::tuple<std::string, float>("5", 3.2));
  static_assert(
      std::is_same<
          std::tuple<double, int16_t, std::string, float>,
          decltype(result)>::value,
      "");
  EXPECT_EQ(2.3, std::get<0>(result));
  EXPECT_EQ(15, std::get<1>(result));
  EXPECT_EQ("5", std::get<2>(result));
  EXPECT_EQ(static_cast<float>(3.2), std::get<3>(result));
}

TEST(MetaprogrammingTest, TupleConcat_emptytupleatend) {
  auto result = tuple_concat(
      std::tuple<double, int16_t>(2.3, 15),
      std::tuple<std::string, float>("5", 3.2),
      std::tuple<>());
  static_assert(
      std::is_same<
          std::tuple<double, int16_t, std::string, float>,
          decltype(result)>::value,
      "");
  EXPECT_EQ(2.3, std::get<0>(result));
  EXPECT_EQ(15, std::get<1>(result));
  EXPECT_EQ("5", std::get<2>(result));
  EXPECT_EQ(static_cast<float>(3.2), std::get<3>(result));
}

TEST(MetaprogrammingTest, TupleConcat_workswithreferencesandpointers) {
  double val1 = 2.3;
  int16_t val2 = 15;
  std::string val3 = "hello";
  float val4 = 3.2;
  auto result = tuple_concat(
      std::tuple<double&, const int16_t&>(val1, val2),
      std::tuple<std::string&&, float*>(std::move(val3), &val4));
  static_assert(
      std::is_same<
          std::tuple<double&, const int16_t&, std::string&&, float*>,
          decltype(result)>::value,
      "");
  EXPECT_EQ(2.3, std::get<0>(result));
  EXPECT_EQ(&val1, &std::get<0>(result));
  EXPECT_EQ(15, std::get<1>(result));
  EXPECT_EQ(&val2, &std::get<1>(result));
  EXPECT_EQ("hello", std::get<2>(result));
  EXPECT_EQ(&val3, &std::get<2>(result));
  EXPECT_EQ(static_cast<float>(3.2), *std::get<3>(result));
  EXPECT_EQ(&val4, std::get<3>(result));
}

TEST(MetaprogrammingTest, TupleConcat_worksWithMovableOnlyTypes) {
  auto result = tuple_concat(
      std::tuple<MovableOnly, MovableOnly>(1, 2), std::tuple<MovableOnly>(3));
  static_assert(
      std::is_same<
          std::tuple<MovableOnly, MovableOnly, MovableOnly>,
          decltype(result)>::value,
      "");
  EXPECT_EQ(MovableOnly(1), std::get<0>(result));
  EXPECT_EQ(MovableOnly(2), std::get<1>(result));
  EXPECT_EQ(MovableOnly(3), std::get<2>(result));
}

TEST(MetaprogrammingTest, TupleConcat_doesntCopyMoreThanNecessary) {
  auto result = tuple_concat(
      std::tuple<CopyCounting, CopyCounting>(CopyCounting(), CopyCounting()),
      std::tuple<CopyCounting>(CopyCounting()),
      std::tuple<CopyCounting>(CopyCounting()));
  static_assert(
      std::is_same<
          std::tuple<CopyCounting, CopyCounting, CopyCounting, CopyCounting>,
          decltype(result)>::value,
      "");
  EXPECT_EQ(0, std::get<0>(result).copy_count);
  EXPECT_EQ(0, std::get<1>(result).copy_count);
  EXPECT_EQ(0, std::get<2>(result).copy_count);
  EXPECT_EQ(0, std::get<3>(result).copy_count);
  EXPECT_EQ(2, std::get<0>(result).move_count);
  EXPECT_EQ(2, std::get<1>(result).move_count);
  EXPECT_EQ(2, std::get<2>(result).move_count);
  EXPECT_EQ(2, std::get<3>(result).move_count);
}
} // namespace test_tuple_concat

namespace test_concat_iseq {
using std::index_sequence;
using std::integer_sequence;
static_assert(std::is_same<index_sequence<>, concat_iseq_t<>>::value, "");
static_assert(
    std::is_same<index_sequence<>, concat_iseq_t<index_sequence<>>>::value,
    "");
static_assert(
    std::is_same<
        index_sequence<>,
        concat_iseq_t<index_sequence<>, index_sequence<>>>::value,
    "");
static_assert(
    std::is_same<index_sequence<4>, concat_iseq_t<index_sequence<4>>>::value,
    "");
static_assert(
    std::is_same<
        index_sequence<4>,
        concat_iseq_t<index_sequence<4>, index_sequence<>>>::value,
    "");
static_assert(
    std::is_same<
        index_sequence<4>,
        concat_iseq_t<index_sequence<>, index_sequence<4>>>::value,
    "");
static_assert(
    std::is_same<
        index_sequence<4>,
        concat_iseq_t<index_sequence<>, index_sequence<4>, index_sequence<>>>::
        value,
    "");
static_assert(
    std::is_same<
        index_sequence<4, 2>,
        concat_iseq_t<index_sequence<4>, index_sequence<2>>>::value,
    "");
static_assert(
    std::is_same<
        index_sequence<4, 2>,
        concat_iseq_t<
            index_sequence<>,
            index_sequence<4, 2>,
            index_sequence<>>>::value,
    "");
static_assert(
    std::is_same<
        index_sequence<4, 2, 9>,
        concat_iseq_t<
            index_sequence<>,
            index_sequence<4, 2>,
            index_sequence<9>>>::value,
    "");

static_assert(
    std::is_same<
        integer_sequence<int8_t, -5, -3>,
        concat_iseq_t<
            integer_sequence<int8_t, -5>,
            integer_sequence<int8_t, -3>>>::value,
    "");
} // namespace test_concat_iseq

} // namespace
